MT9M034I12STCH-S213A-GEVB Datasheet MT9M034I12STC-DPBR1, MT9M034I12STC-DRBR1, MT9M034I12STCH-S213A-GEVB | P1-P3

May, 2017 − Rev. 9

1 Publication Order Number:

MT9M034/D

MT9M034

MT9M034 1/3-Inch CMOS

Digital Image Sensor

Table 1. KEY PARAMETERS

Parameter Value

Optical Format 1/3−inch (6 mm)

Active Pixels 1280 × 960 = 1.2 Mp

Pixel Size 3.75 μm

Color Filter Array RGB Bayer or Monochrome

Shutter Type Electronic Rolling Shutter

Input Clock Range 6–50 MHz

Output Clock Maximum 74.25 MHz

Output Parallel 12−bit

Frame Rate

Full Resolution 45 fps

720p 60 fps

Responsivity 5.48 V/lux−sec

SNR

MAX

43.9 dB

Maximum Dynamic Range >115 dB

Supply Voltage

I/O 1.8 V* or 2.8 V

Digital 1.8 V

Analog 2.8 V

Power Consumption 270 mW (1280 × 720

60 fps Parallel Output Linear

Mode)

460 mW (1280 × 720 60 fps

Parallel Output HDR Mode)

Operating Temperature (ambient) −T

–30°C to + 70°C (Surveillance)

Package Options 10×10 mm 48−pin iLCC

Bare Die

*1.8 V VDD_IO is recommended due to better row noise performance

Features

• Superior Low−light performance

• HD Video (720p60)

• Linear or High Dynamic Range Capture

• Video/Single Frame Modes

• On−chip AE and Statistics Engine

• Parallel and Serial Output

• Auto Black Level Calibration

• Context Switching

• Temperature Sensor

www.onsemi.com

See detailed ordering and shipping information on page 2 of

this data sheet.

ORDERING INFORMATION

ILCC48 10x10

CASE 847AD

Applications

• Video Surveillance

• 720p60 Video Applications

• High Dynamic Range Imaging

MT9M034

www.onsemi.com

ORDERING INFORMATION

Table 2. AVAILABLE PART NUMBERS

Part Number Product Description Orderable Product Attribute Description

MT9M034I12STC−DPBR1 1.2 MP 1/3” CIS Dry Pack with Protective Film, Double Side BBAR Glass

MT9M034I12STC−DRBR1 1.2 MP 1/3” CIS Dry Pack without Protective Film, Double Side BBAR Glass

MT9M034I12STM−DPBR1 1.2 MP 1/3” CIS Dry Pack with Protective Film, Double Side BBAR Glass

MT9M034I12STM−DRBR 1.2 MP 1/3” CIS Dry Pack without Protective Film, Double Side BBAR Glass

GENERAL DESCRIPTION

The ON Semiconductor MT9M034 is a 1/3−inch CMOS

digital image sensor with an active−pixel array of 1280 (H)

× 960 (V). It captures images in either linear or high dynamic

range modes, with a rolling−shutter readout. It includes

sophisticated camera functions such as auto exposure

control, windowing, and both video and single frame modes.

It is designed for both low light and high dynamic range

scene performance. It is programmable through a simple

two−wire serial interface. The MT9M034 produces

extraordinarily clear, sharp digital pictures, and its ability to

capture both continuous video and single frames makes it the

perfect choice for a wide range of applications, including

surveillance and HD video.

The ON Semiconductor MT9M034 can be operated in its

default mode or programmed for frame size, exposure, gain,

and other parameters. The default mode output is a

960p−resolution image at 45 frames per second (fps). In

linear mode, it outputs 12−bit raw data. In high dynamic

range mode, it outputs 12−bit compressed data using parallel

output. The device may be operated in video (master) mode

or in single frame trigger mode.

FRAME_VALID and LINE_VALID signals are output on

dedicated pins, along with a synchronized pixel clock in

parallel mode.

The MT9M034 includes additional features to allow

application−specific tuning: windowing and offset,

adjustable auto−exposure control, auto black level

correction, and on−board temperature sensor. Optional

be embedded in first and last 2 lines of the image frame.

The sensor is designed to operate in a wide temperature

range (–30°C to +70°C).

FUNCTIONAL OVERVIEW

The MT9M034 is a progressive−scan sensor that

generates a stream of pixel data at a constant frame rate. It

uses an on−chip, phase−locked loop (PLL) that can be

optionally enabled to generate all internal clocks from a

single master input clock running between 6 and 50 MHz

The maximum output pixel rate is 74.25 Mp/s,

corresponding to a clock rate of 74.25 MHz. Figure 1 shows

a block diagram of the sensor.

Figure 1. Block Diagram

Control Registers

PLL

MemoryOTPM

External

Clock

Parallel

Output

Two−Wire

Serial

Interface

Trigger

Power

Active Pixel Sensor

(APS)

Array

Analog Processing and

A/D Conversion

Timing and Control

(Sequencer)

Auto Exposure

and Stats Engine

Pixel Data Path

(Signal Processing)

MT9M034

www.onsemi.com

User interaction with the sensor is through the two−wire

serial bus, which communicates with the array control,

analog signal chain, and digital signal chain. The core of the

sensor is a 1.2 Mp Active− Pixel Sensor array. The timing

and control circuitry sequences through the rows of the

array, resetting and then reading each row in turn. In the time

interval between resetting a row and reading that row, the

pixels in the row integrate incident light. The exposure is

controlled by varying the time interval between reset and

readout. Once a row has been read, the data from the

columns is sequenced through an analog signal chain

(providing offset correction and gain), and then through an

analog−to−digital converter (ADC). The output from the

ADC is a 12−bit value for each pixel in the array. The ADC

output passes through a digital processing signal chain

(which provides further data path corrections and applies

digital gain). The sensor also offers a high dynamic range

mode of operation where multiple images are combined

on−chip to produce a single image at 20−bit per pixel value.

A compressing mode is further offered to allow this 20−bit

pixel value to be transmitted to the host system as a 12−bit

value with close to zero loss in image quality. The pixel data

are output at a rate of up to 74.25 Mp/s, in parallel to frame

and line synchronization signals.

Figure 2. Typical Configuration: Parallel Pixel Data Interface

Notes:

Master clock

(6–50 MHz)

SDATA

SCLK

RESET_BAR

TEST

FRAME_VALID

DOUT [11:0]

EXTCLK

GND

Digital

ground

Analog

ground

Controller

LINE_VALID

PIXCLK

1.5kΩ

2,3

VAA_PIX

_IO V

_PLL V

_IO V

_PLL V

Digital I/0

Power

Digital

Core

Power

PLL

Power

Analog

Power

Analog

Power

1. All power supplies should be adequately decoupled.

2. ON Semiconductor recommends a resistor value of 1.5 kΩ, but a greater value may be used for slower two-wire speed.

3. The serial interface output pads and V

DDSLVS can be left unconnected if the parallel output interface is used.

4. ON Semiconductor recommends that 0.1 μF and 10 μF decoupling capacitors for each power supply are mounted as

close as possible to the pad. Actual values and results may vary depending on layout and design considerations.

Check the demo headboard schematics for circuit recommendations.

5. ON Semiconductor recommends that analog power planes are placed in a manner such that coupling with the digital

power planes is minimized.

6. I/O signals voltage must be configured to match V

DD_IO voltage to minimize any leakage currents.

7. The serial interface output pads and VDDSLVS can be left unconnected if the parallel output interface is used.

SADDR

OE_BAR

TRIGGER

GND

From

Controller

_PIX

STANDBY

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39

MT9M034I12STCH-S213A-GEVB

Mfr. #:

Buy MT9M034I12STCH-S213A-GEVB

Manufacturer:

ON Semiconductor

Description:

Optical Sensor Development Tools 1.2 MP 1/3" CIS HB

Lifecycle:

New from this manufacturer.

Delivery:

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MT9M034I12STCH-S213A-GEVB

MT9M034I12STCH-S213A-GEVB

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